The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Very abruptly towards the end of the reaction

Linearly with time

Logarithmically with time

Exponentially with time

Very abruptly towards the end of the reaction

Linearly with time

Logarithmically with time

Exponentially with time

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Chemical Reaction Engineering
For a mixed flow reactor operating at steady state, the rate of reaction is given by

- dCsub>A/dt

FA0/V . Xsub>A

FA0/V - dCsub>A/dt

FA0/V + dCsub>A/dt

- dCsub>A/dt

FA0/V . Xsub>A

FA0/V - dCsub>A/dt

FA0/V + dCsub>A/dt

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Chemical Reaction Engineering
Velocity of a chemical reaction

Decreases with increase of reactant concentration

None of these

Decreases with increase in temperature

Increases with increase of pressure of reactants for all reactions

Decreases with increase of reactant concentration

None of these

Decreases with increase in temperature

Increases with increase of pressure of reactants for all reactions

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Chemical Reaction Engineering
Recycling back of outlet stream to the reactor from an ideal CSTR carrying out a first order liquid phase reaction will result in __________ in conversion.

No change

Either A or B, depends on the type of reaction

Decrease

Increase

No change

Either A or B, depends on the type of reaction

Decrease

Increase

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Chemical Reaction Engineering
Photochemical reaction rate does not depend significantly on temperature, because

None of these

It is a reversible reaction

The energy of reacting molecules exceeds the activation energy by absorption of light

It is an exothermic reaction

None of these

It is a reversible reaction

The energy of reacting molecules exceeds the activation energy by absorption of light

It is an exothermic reaction

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Chemical Reaction Engineering
Which of the following is an autocatalytic reaction?

Enzyme fermentation reaction

Photochemical reactions

Ammonia synthesis reaction

Microbial fermentation reaction

Enzyme fermentation reaction

Photochemical reactions

Ammonia synthesis reaction

Microbial fermentation reaction

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Chemical Reaction Engineering

Chemical Reaction Engineering The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering For a mixed flow reactor operating at steady state, the rate of reaction is given by

Chemical Reaction Engineering Velocity of a chemical reaction

Chemical Reaction Engineering Recycling back of outlet stream to the reactor from an ideal CSTR carrying out a first order liquid phase reaction will result in __________ in conversion.

Chemical Reaction Engineering Photochemical reaction rate does not depend significantly on temperature, because

Chemical Reaction Engineering Which of the following is an autocatalytic reaction?

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
For a mixed flow reactor operating at steady state, the rate of reaction is given by

Chemical Reaction Engineering
Velocity of a chemical reaction

Chemical Reaction Engineering
Recycling back of outlet stream to the reactor from an ideal CSTR carrying out a first order liquid phase reaction will result in __________ in conversion.

Chemical Reaction Engineering
Photochemical reaction rate does not depend significantly on temperature, because

Chemical Reaction Engineering
Which of the following is an autocatalytic reaction?